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Literature DB >> 25046440

Increased expression of (pro)renin receptor does not cause hypertension or cardiac and renal fibrosis in mice.

Alva Rosendahl¹, Gianina Niemann¹, Sascha Lange¹, Erfan Ahadzadeh¹, Christian Krebs¹, Aurelie Contrepas², Harry van Goor³, Thorsten Wiech⁴, Michael Bader⁵, Michael Schwake⁶, Judith Peters⁷, Rolf Stahl¹, Geneviève Nguyen², Ulrich O Wenzel¹.

Abstract

Binding of renin and prorenin to the (pro)renin receptor (PRR) increases their enzymatic activity and upregulates the expression of pro-fibrotic genes in vitro. Expression of PRR is increased in the heart and kidney of hypertensive and diabetic animals, but its causative role in organ damage is still unclear. To determine whether increased expression of PRR is sufficient to induce cardiac or renal injury, we generated a mouse that constitutively overexpresses PRR by knocking-in the Atp6ap2/PRR gene in the hprt locus under the control of a CMV immediate early enhancer/chicken beta-actin promoter. Mice were backcrossed in the C57Bl/6 and FVB/N strain and studied at the age of 12 months. In spite of a 25- to 80-fold renal and up to 400-fold cardiac increase in Atp6ap2/PRR expression, we found no differences in systolic blood pressure or albuminuria between wild-type and PRR overexpressing littermates. Histological examination did not show any renal or cardiac fibrosis in mutant mice. This was supported by real-time PCR analysis of inflammatory markers as well as of pro-fibrotic genes in the kidney and collagen in cardiac tissue. To determine whether the concomitant increase of renin would trigger fibrosis, we treated PRR overexpressing mice with the angiotensin receptor-1 blocker losartan over a period of 6 weeks. Renin expression increased eightfold in the kidney but no renal injury could be detected. In conclusion, our results suggest no major role for PRR in organ damage per se or related to its function as a receptor of renin.

Entities: Chemical Disease Gene Species

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Year: 2014 PMID： 25046440 DOI： 10.1038/labinvest.2014.83

Source DB: PubMed Journal: Lab Invest ISSN： 0023-6837 Impact factor: 5.662

28 in total

1. Effect of (pro)renin receptor inhibition by a decoy peptide on renal damage in the clipped kidney of Goldblatt rats.

Authors: Christian Krebs; Matthias Weber; Oliver Steinmetz; Catherine Meyer-Schwesinger; Rolf Stahl; A H Jan Danser; Ingrid Garrelds; Harry van Goor; Genevieve Nguyen; Dominik Müller; Ulrich Wenzel
Journal: Kidney Int Date: 2008-09 Impact factor: 10.612

Review 2. The interaction between prorenin, renin and the (pro)renin receptor: time to rethink the role in hypertension.

Authors: Timothy L Reudelhuber
Journal: Curr Opin Nephrol Hypertens Date: 2012-03 Impact factor: 2.894

3. Regulation of Frizzled-dependent planar polarity signaling by a V-ATPase subunit.

Authors: Tobias Hermle; Deniz Saltukoglu; Julian Grünewald; Gerd Walz; Matias Simons
Journal: Curr Biol Date: 2010-06-24 Impact factor: 10.834

4. A novel signal transduction cascade involving direct physical interaction of the renin/prorenin receptor with the transcription factor promyelocytic zinc finger protein.

Authors: Jan H Schefe; Mario Menk; Jana Reinemund; Karin Effertz; Robin M Hobbs; Pier Paolo Pandolfi; Patricia Ruiz; Thomas Unger; Heiko Funke-Kaiser
Journal: Circ Res Date: 2006-11-02 Impact factor: 17.367

5. Angiotensin II type 2 receptor deficiency aggravates renal injury and reduces survival in chronic kidney disease in mice.

Authors: Ralf A Benndorf; Christian Krebs; Birgit Hirsch-Hoffmann; Edzard Schwedhelm; Gabriele Cieslar; Robin Schmidt-Haupt; Oliver M Steinmetz; Catherine Meyer-Schwesinger; Friedrich Thaiss; Munif Haddad; Susanne Fehr; Andreas Heilmann; Udo Helmchen; Lutz Hein; Heimo Ehmke; Rolf A Stahl; Rainer H Böger; Ulrich O Wenzel
Journal: Kidney Int Date: 2009-02-11 Impact factor: 10.612

6. Slowly progressive, angiotensin II-independent glomerulosclerosis in human (pro)renin receptor-transgenic rats.

Authors: Yuki Kaneshiro; Atsuhiro Ichihara; Mariyo Sakoda; Tomoko Takemitsu; A H M Nurun Nabi; M Nasir Uddin; Tsutomu Nakagawa; Akira Nishiyama; Fumiaki Suzuki; Tadashi Inagami; Hiroshi Itoh
Journal: J Am Soc Nephrol Date: 2007-05-09 Impact factor: 10.121

7. Requirement of prorenin receptor and vacuolar H+-ATPase-mediated acidification for Wnt signaling.

Authors: Cristina-Maria Cruciat; Bisei Ohkawara; Sergio P Acebron; Emil Karaulanov; Carmen Reinhard; Dierk Ingelfinger; Michael Boutros; Christof Niehrs
Journal: Science Date: 2010-01-22 Impact factor: 47.728

8. Antihypertensive therapy upregulates renin and (pro)renin receptor in the clipped kidney of Goldblatt hypertensive rats.

Authors: C Krebs; I Hamming; S Sadaghiani; O M Steinmetz; C Meyer-Schwesinger; S Fehr; R A K Stahl; I M Garrelds; A H J Danser; H van Goor; A Contrepas; G Nguyen; U Wenzel
Journal: Kidney Int Date: 2007-06-27 Impact factor: 10.612

9. Renin increases mesangial cell transforming growth factor-beta1 and matrix proteins through receptor-mediated, angiotensin II-independent mechanisms.

Authors: Y Huang; S Wongamorntham; J Kasting; D McQuillan; R T Owens; L Yu; N A Noble; W Border
Journal: Kidney Int Date: 2006-01 Impact factor: 18.998

10. (Pro)renin receptor triggers distinct angiotensin II-independent extracellular matrix remodeling and deterioration of cardiac function.

Authors: Anne-Mari Moilanen; Jaana Rysä; Raisa Serpi; Erja Mustonen; Zoltán Szabò; Jani Aro; Juha Näpänkangas; Olli Tenhunen; Meeri Sutinen; Tuula Salo; Heikki Ruskoaho
Journal: PLoS One Date: 2012-07-23 Impact factor: 3.240

14 in total

Review 1. The (pro)renin receptor and its interaction partners.

Authors: Jörg Peters
Journal: Pflugers Arch Date: 2017-06-15 Impact factor: 3.657

2. (Pro)renin Receptor Is an Amplifier of Wnt/β-Catenin Signaling in Kidney Injury and Fibrosis.

Authors: Zhen Li; Lili Zhou; Yongping Wang; Jinhua Miao; Xue Hong; Fan Fan Hou; Youhua Liu
Journal: J Am Soc Nephrol Date: 2017-03-07 Impact factor: 10.121

3. (Pro)renin receptor activation increases profibrotic markers and fibroblast-like phenotype through MAPK-dependent ROS formation in mouse renal collecting duct cells.

Authors: Alexis A Gonzalez; Leonardo Zamora; Cristian Reyes-Martinez; Nicolas Salinas-Parra; Nicole Roldan; Catherina A Cuevas; Stefanny Figueroa; Alex Gonzalez-Vergara; Minolfa C Prieto
Journal: Clin Exp Pharmacol Physiol Date: 2017-08-30 Impact factor: 2.557

Review 4. The (pro)renin receptor: an emerging player in hypertension and metabolic syndrome.

Authors: Nirupama Ramkumar; Donald E Kohan
Journal: Kidney Int Date: 2019-02-26 Impact factor: 10.612

5. Activation of Renal (Pro)Renin Receptor Contributes to High Fructose-Induced Salt Sensitivity.

Authors: Chuanming Xu; Aihua Lu; Xiaohan Lu; Linlin Zhang; Hui Fang; Li Zhou; Tianxin Yang
Journal: Hypertension Date: 2016-12-19 Impact factor: 10.190

Review 6. The prorenin receptor in the cardiovascular system and beyond.

Authors: Matthew Hennrikus; Alexis A Gonzalez; Minolfa C Prieto
Journal: Am J Physiol Heart Circ Physiol Date: 2017-11-03 Impact factor: 4.733

7. Renal Atp6ap2/(Pro)renin Receptor Is Required for Normal Vacuolar H+-ATPase Function but Not for the Renin-Angiotensin System.

Authors: Francesco Trepiccione; Simon D Gerber; Florian Grahammer; Karen I López-Cayuqueo; Véronique Baudrie; Teodor G Păunescu; Diane E Capen; Nicolas Picard; R Todd Alexander; Tobias B Huber; Regine Chambrey; Dennis Brown; Pascal Houillier; Dominique Eladari; Matias Simons
Journal: J Am Soc Nephrol Date: 2016-04-04 Impact factor: 10.121